Rheology and adhesion study of all-natural polyamine-based double network bioadhesive
Wound closure is a crucial medical procedure, and for decades, sutures have been the standard method employed. However, in this ever-improving time and age, the limitations associated with sutures, such as higher infection risk, patient discomfort, and inconvenience, have motivated researchers...
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2023
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sg-ntu-dr.10356-1662842023-05-02T05:08:03Z Rheology and adhesion study of all-natural polyamine-based double network bioadhesive Ng, Jian Jie Terry W.J. Steele School of Materials Science and Engineering wjsteele@ntu.edu.sg Engineering::Materials::Biomaterials Wound closure is a crucial medical procedure, and for decades, sutures have been the standard method employed. However, in this ever-improving time and age, the limitations associated with sutures, such as higher infection risk, patient discomfort, and inconvenience, have motivated researchers to explore smarter alternatives like bioadhesives. Nonetheless, the current market for bioadhesives has limitations, particularly with synthetic ones that may lack biocompatibility. Additionally, natural bioadhesives often struggle to achieve high adhesion strength, making them less effective for wound closure. Therefore, the development of an all-natural bioadhesive with superior biocompatibility and high adhesion strength has been the focus of researchers. Recently, Prof Terry Steele's research group has successfully developed a polyamine-based hybrid bioadhesive with excellent lap shear adhesion strength (45.03kPa) and biocompatibility. This project is a continuation study to the newly developed adhesive, and it investigates the structure-property relationship of the three different polyamines by varying curing times and temperatures. The rheological, tack, and peel tests will be performed to evaluate the suitability of the newly developed polyamine DN hydrogel for bioadhesive applications. The study demonstrated that increasing the curing time and temperature led to an increase in both adhesion strength and viscoelastic properties. Among the three formulations tested (Putrescine, Spermidine, and Spermine), Putrescine showed the most promising results as an open wound bioadhesive. This was attributed to its low apparent viscosity (100 Pa s), short gelation time (3-4 mins), high elastic limit (30%), and high shear strength (70-90kPa). Additionally, Putrescine exhibited high adhesion strength (13 N/m) at 37 °C. Bachelor of Engineering (Materials Engineering) 2023-04-28T07:18:41Z 2023-04-28T07:18:41Z 2023 Final Year Project (FYP) Ng, J. J. (2023). Rheology and adhesion study of all-natural polyamine-based double network bioadhesive. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/166284 https://hdl.handle.net/10356/166284 en application/pdf Nanyang Technological University |
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Engineering::Materials::Biomaterials Ng, Jian Jie Rheology and adhesion study of all-natural polyamine-based double network bioadhesive |
| description |
Wound closure is a crucial medical procedure, and for decades, sutures have been the
standard method employed. However, in this ever-improving time and age, the
limitations associated with sutures, such as higher infection risk, patient discomfort,
and inconvenience, have motivated researchers to explore smarter alternatives like
bioadhesives. Nonetheless, the current market for bioadhesives has limitations,
particularly with synthetic ones that may lack biocompatibility. Additionally, natural
bioadhesives often struggle to achieve high adhesion strength, making them less
effective for wound closure. Therefore, the development of an all-natural bioadhesive
with superior biocompatibility and high adhesion strength has been the focus of
researchers. Recently, Prof Terry Steele's research group has successfully developed a
polyamine-based hybrid bioadhesive with excellent lap shear adhesion strength
(45.03kPa) and biocompatibility.
This project is a continuation study to the newly developed adhesive, and it
investigates the structure-property relationship of the three different polyamines by
varying curing times and temperatures. The rheological, tack, and peel tests will be
performed to evaluate the suitability of the newly developed polyamine DN hydrogel
for bioadhesive applications.
The study demonstrated that increasing the curing time and temperature led to an
increase in both adhesion strength and viscoelastic properties. Among the three
formulations tested (Putrescine, Spermidine, and Spermine), Putrescine showed the
most promising results as an open wound bioadhesive. This was attributed to its low
apparent viscosity (100 Pa s), short gelation time (3-4 mins), high elastic limit (30%),
and high shear strength (70-90kPa). Additionally, Putrescine exhibited high adhesion
strength (13 N/m) at 37 °C. |
| author2 |
Terry W.J. Steele |
| author_facet |
Terry W.J. Steele Ng, Jian Jie |
| format |
Final Year Project |
| author |
Ng, Jian Jie |
| author_sort |
Ng, Jian Jie |
| title |
Rheology and adhesion study of all-natural polyamine-based double network bioadhesive |
| title_short |
Rheology and adhesion study of all-natural polyamine-based double network bioadhesive |
| title_full |
Rheology and adhesion study of all-natural polyamine-based double network bioadhesive |
| title_fullStr |
Rheology and adhesion study of all-natural polyamine-based double network bioadhesive |
| title_full_unstemmed |
Rheology and adhesion study of all-natural polyamine-based double network bioadhesive |
| title_sort |
rheology and adhesion study of all-natural polyamine-based double network bioadhesive |
| publisher |
Nanyang Technological University |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/166284 |
| _version_ |
1765213814734716928 |